BESS | Power Markets | Operational & Contractual Risk
ENERVEON helps developers, asset owners, and investors design, develop, contract, and operate energy infrastructure assets—especially grid-scale BESS exposed to market volatility, performance penalties, and revenue uncertainty.
Practical, execution-oriented support for storage projects exposed to power market and operational risk.
Technical and commercial advisory for utility-scale storage from concept through COD and operations.
Market participation strategy, ancillary services qualification, revenue drivers, and downside exposure.
Interconnection strategy and coordination through studies, upgrades, and approvals.
Contract review with an operator’s lens: obligations, penalties, revenue structures, and risk transfer.
Pre-COD readiness reviews, performance testing support, and ongoing advisory for operating assets.
Independent, owner-aligned support across engineering decisions, market rules, contracts, and operations.
From interconnection strategy and EPC interfaces to testing, commissioning, and operational advisory.
Practical perspective on ancillary services qualification, telemetry, performance requirements, and dispatch realities.
Focus on how market exposure, SOC management, and equipment constraints translate into revenue and penalty risk.
Fact-based perspective shaped by first-of-kind deployments and market-facing operations.
Practical involvement across design decisions, performance testing, and operating constraints.
Commercial structures aligned to physical capabilities and operational obligations.
Interconnection → testing → operations, with a focus on protecting capital and avoiding preventable failures.
Depth in ERCOT, with experience across adjacent energy infrastructure and large-load sectors.
Market participation and operational realities across energy and ancillary services.
Execution support for BESS projects where performance, telemetry, and constraints drive outcomes.
Interface of generation, storage constraints, and commercial structures.
Energy and infrastructure considerations for reliability-sensitive load growth.